package org.eclipse.collections.impl.parallel;
import java.util.List;
import java.util.concurrent.ArrayBlockingQueue;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.Executor;
import org.eclipse.collections.api.block.function.Function;
import org.eclipse.collections.api.block.procedure.primitive.ObjectIntProcedure;
import org.eclipse.collections.impl.utility.ArrayIterate;
public final class ObjectIntProcedureFJTaskRunner<T, BT extends ObjectIntProcedure<? super T>>
{
private final Function<ObjectIntProcedureFJTask<T, BT>, BT> procedureFunction = new ObjectIntProcedureExtractor();
private ObjectIntProcedureFJTask<T, BT>[] procedures;
private Throwable error;
private final Combiner<BT> combiner;
private final int taskCount;
private final BlockingQueue<BT> outputQueue;
private final CountDownLatch latch;
public ObjectIntProcedureFJTaskRunner(Combiner<BT> newCombiner, int taskCount)
{
this(newCombiner, taskCount,
ObjectIntProcedureFJTaskRunner.buildQueue(newCombiner, taskCount),
ObjectIntProcedureFJTaskRunner.buildCountDownLatch(newCombiner, taskCount));
}
ObjectIntProcedureFJTaskRunner(Combiner<BT> newCombiner, int taskCount, BlockingQueue<BT> queue, CountDownLatch latch)
{
this.combiner = newCombiner;
this.taskCount = taskCount;
this.outputQueue = queue;
this.latch = latch;
}
private static <BT> CountDownLatch buildCountDownLatch(Combiner<BT> newCombiner, int taskCount)
{
return newCombiner.useCombineOne() ? null : new CountDownLatch(taskCount);
}
private static <BT> ArrayBlockingQueue<BT> buildQueue(Combiner<BT> newCombiner, int taskCount)
{
return newCombiner.useCombineOne() ? new ArrayBlockingQueue<>(taskCount) : null;
}
private void createAndExecuteTasks(Executor executor, ObjectIntProcedureFactory<BT> procedureFactory, List<T> list)
{
this.procedures = new ObjectIntProcedureFJTask[this.taskCount];
int sectionSize = list.size() / this.taskCount;
int size = this.taskCount;
for (int index = 0; index < size; index++)
{
ObjectIntProcedureFJTask<T, BT> procedureFJTask =
new ObjectIntProcedureFJTask<>(this, procedureFactory, list, index, sectionSize, index == this.taskCount - 1);
this.procedures[index] = procedureFJTask;
executor.execute(procedureFJTask);
}
}
public void setFailed(Throwable newError)
{
this.error = newError;
}
public void taskCompleted(ObjectIntProcedureFJTask<T, BT> task)
{
if (this.combiner.useCombineOne())
{
this.outputQueue.add(task.getProcedure());
}
else
{
this.latch.countDown();
}
}
public void executeAndCombine(Executor executor, ObjectIntProcedureFactory<BT> procedureFactory, List<T> list)
{
this.createAndExecuteTasks(executor, procedureFactory, list);
this.join();
if (this.error != null)
{
throw new RuntimeException("One or more parallel tasks failed", this.error);
}
this.combineTasks();
}
private void join()
{
try
{
if (this.combiner.useCombineOne())
{
int remaingTaskCount = this.taskCount;
while (remaingTaskCount > 0)
{
this.combiner.combineOne(this.outputQueue.take());
remaingTaskCount--;
}
}
else
{
this.latch.await();
}
}
catch (InterruptedException e)
{
throw new RuntimeException("Combine failed", e);
}
}
private void combineTasks()
{
if (!this.combiner.useCombineOne())
{
this.combiner.combineAll(ArrayIterate.collect(this.procedures, this.procedureFunction));
}
}
private final class implements Function<ObjectIntProcedureFJTask<T, BT>, BT>
{
private static final long = 1L;
@Override
public BT (ObjectIntProcedureFJTask<T, BT> object)
{
return object.getProcedure();
}
}
}